Title :
Eliminating Angular Dispersion in Microcavity by Employing Metamaterials With Hyperbolic Dispersion as Reflectors
Author :
Xu-Lin Zhang ; Jun-Feng Song ; Jing Feng ; Hong-Bo Sun
Author_Institution :
State Key Lab. on Integrated Optoelectron., Jilin Univ., Changchun, China
Abstract :
Microcavity typically exhibits a blue shift of the resonance with the angle increasing, which may bring disadvantages in related applications. Herein, we propose a design concept of eliminating the angular dispersion in microcavity by employing metamaterials with hyperbolic dispersion as reflectors. By exploiting optimal constitutive parameters of the metamaterials, the reflection phase from the cavity upon both metamaterial reflectors increases drastically with the incident angle, and can nearly compensate the decrement of the phase accumulation inside the cavity for each angle. A microcavity without angular dispersion is therefore established, in which the metamaterials may be realized by employing metal-dielectric multilayered structures in practice.
Keywords :
dielectric materials; metals; micro-optics; microcavities; optical design techniques; optical dispersion; optical elements; optical metamaterials; optical multilayers; spectral line shift; angular dispersion; blue shift; design concept; hyperbolic dispersion; metal-dielectric multilayered structures; metamaterials; microcavity; optimal constitutive parameters; phase accumulation; reflection phase; reflectors; Cavity resonators; Dispersion; Magnetic materials; Metamaterials; Microcavities; Reflection; Refractive index; Microcavity; angular dispersion; metamaterials with hyperbolic dispersion;
Journal_Title :
Quantum Electronics, IEEE Journal of
DOI :
10.1109/JQE.2014.2311035
